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263-4509-00L 5 Credits MSC , WBZ D-ITET , D-INFK , D-MATH

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Complex Network Models

Lecturers & Examiners: Prof. Dr. Johannes Lengler, Dr. Raphael Mario Steiner

VVZ CR 4.1

Last Updated: 2026-02-05 16:38:53

Abstract

Complex network models are random graphs that feature one or several properties observed in real-world networks (e.g., social networks, internet graph, www). Depending on the application, different properties are relevant, and different complex network models are useful. This course gives an overview over some relevant models and the properties they do and do not cover.

Objective

The students get familiar with a portfolio of network models, and they know their features and shortcomings. For a given application, they can identify relevant properties for this applications and can select an appropriate network model.

Content

Network models: Erdös-Renyi random graphs, Chung-Lu graphs, configuration model, Kleinberg model, geometric inhomogeneous random graphs Properties: degree distribution, structure of giant and smaller components, clustering coefficient, small-world properties, community structures, weak ties

Resources

Lecture Notes

The script is available in moodle or athttps://as.inf.ethz.ch/people/members/lenglerj/CompNetScript.pdf

Literature

Latora, Nikosia, Russo: "Complex Networks: Principles, Methods and Applications" van der Hofstad: "Random Graphs and Complex Networks. Volume 1"

General Information

Language: English
Levels: MSC , WBZ
Frequency: Yearly recurring

Examination

Type: session examination
Mode: oral 25 minutes

The candidate gets questions and 5 minutes of preparation time. Afterwards, the oral exam takes 20 minutes.

Course Components

Type	Title	Time & Place	Hours
lecture	Complex Network Models	Thu 10:15-12:00 (ML F 39)	2 h weekly
independent project	Complex Network Models	No time listed	2 h weekly

Offered In

Computer Science Master
- Majors
  - Major in Theoretical Computer Science
    - Elective Courses
- Minors
  - Minor in Theoretical Computer Science
Mathematics Master
- Electives (For the Master's degree in Applied Mathematics the following additional condition (not manifest in myStudies) must be obeyed: At least 14 of the required 26 credits from core courses and electives must be acquired in areas of applied mathematics and further application-oriented fields.)
  - Electives: Applied Mathematics and Further Application-Oriented Fields (¬)
    - Selection: Further Realms and Some UZH Courses
CAS in Computer Science
- Focus Courses and Electives
Data Science Master
- Master Studies (Programme Regulations 2017)
  - Core Courses
    - Core Electives
- Master Studies (Programme Regulations 2023)
  - Electives
    - Interdisciplinary Electives
Cyber Security Master
- Minor
  - Theoretical Computer Science
    - Elective Courses